The course deals with the laws and methods which allow a quantitative evaluation of heat transfer processes (conduction, convection, radiation) between bodies and inside a body, as well as the temperature field variations these processes cause, with the objective of providing the knowledge necessary to design heat transfer devices.
teacher profile teaching materials
Classification and general characteristics of fluid machines
Thermal and thermodynamic processes of machines and energy systems
Characteristics of working fluids
Hydroelectric power plants
Wind turbines
Fuels and combustion
Steam power plans
Gas turbine power plant
Internal combustion engines
Combined-cycle power plants
Cogeneration
Propulsion
Photovoltaic systems, fuel cells - outlines
Environmental impact of energy systems - outlines
Impianti motori, Oreste Acton, Carmelo Caputo, UTET 1992
Gli impianti convertitori di energia, C. Caputo, Masson 1997
Programme
Energy needs and sourcesClassification and general characteristics of fluid machines
Thermal and thermodynamic processes of machines and energy systems
Characteristics of working fluids
Hydroelectric power plants
Wind turbines
Fuels and combustion
Steam power plans
Gas turbine power plant
Internal combustion engines
Combined-cycle power plants
Cogeneration
Propulsion
Photovoltaic systems, fuel cells - outlines
Environmental impact of energy systems - outlines
Core Documentation
Introduzione allo studio delle machine, Oreste Acton, Carmelo Caputo, UTET 1979Impianti motori, Oreste Acton, Carmelo Caputo, UTET 1992
Gli impianti convertitori di energia, C. Caputo, Masson 1997
Type of delivery of the course
Classroom lectures and exercisesType of evaluation
The assessment of learning takes place through an oral test, divided into several questions. During Covid-19 total or partial lock-down the activities of evaluation will be carried out according to Art. 1 - D.R. n. 703/2020